Canestrelli Daniele, Bisconti Roberta, Sacco Florinda, Nascetti Giuseppe
Dipartimento di Scienze Ecologiche e Biologiche, Università della Tuscia. Viale dell'Università s.n.c., I-01100 Viterbo, Italy.
Sci Rep. 2014 May 23;4:5042. doi: 10.1038/srep05042.
Hotspots of genetic diversity are regions of utmost importance for species survival and conservation, and their intimate link with the geographic location of glacial refugia has been well established. Nonetheless, the microevolutionary processes underlying the generation of hotspots in such regions have only recently become a fervent field of research. We investigated the phylogeographic and population genetic structure of the agile frog, Rana dalmatina, within its putative refugium in peninsular Italy. We found this region to harbour far more diversity, phylogeographic structure, and lineages of ancient origin than that by the rest of the species' range in Europe. This pattern appeared to be well explained by climate-driven microevolutionary processes that occurred during both glacial and interglacial epochs. Therefore, the inferred evolutionary history of R. dalmatina in Italy supports a view of glacial refugia as 'factories' rather than as repositories of genetic diversity, with significant implications for conservation strategies for hotspots.
遗传多样性热点地区对于物种的生存和保护至关重要,并且它们与冰川避难所的地理位置之间的紧密联系已得到充分证实。尽管如此,这些地区热点形成背后的微观进化过程直到最近才成为一个热门的研究领域。我们研究了意大利半岛假定避难所内敏捷蛙(Rana dalmatina)的系统地理学和种群遗传结构。我们发现该地区所拥有的多样性、系统地理结构以及古老起源的谱系远比欧洲其他地区该物种分布范围内的要多。这种模式似乎可以很好地由冰川期和间冰期发生的气候驱动的微观进化过程来解释。因此,推断出的意大利敏捷蛙的进化历史支持了一种观点,即冰川避难所是“工厂”而非遗传多样性的储存库,这对热点地区的保护策略具有重要意义。